Splitting an Impacting Droplet by a Superhydrophobic Wire

Splitting a droplet into several segments is of great significance in many applications such as the detection of tiny liquid samples, whereas the surface tension tends to hold liquid to remain as one drop, causing difficulty in separating the droplet into pieces. In this work, a method is proposed to split an impacting droplet with a relatively high velocity or Weber number into two halves by a superhydrophobic wire. The effects of the wire wettability and the impact velocity of the droplet on the splitting phenomena and the efficacy to an anti-icing application are investigated. Compared to a hydrophilic wire, a superhydrophobic wire splits an impacting droplet at a relatively high speed of the Weber number greater than 3.1 and inhibits ice accretion at the temperature as low as -20 degrees C. The results suggest that a superhydrophobic wire can be utilized in the droplet manipulation and anti-icing applications such as power lines in high latitude areas.

Automated summary

In this study, a method to split an impacting droplet into two halves using a superhydrophobic wire is proposed, and the effects of the wire wettability and the impact velocity of the droplet on the splitting phenomena are investigated. The results show that the superhydrophobic wire can effectively split the droplet at high velocities and prevent ice accretion at low temperatures, suggesting its potential applications in droplet manipulation and anti-icing.